Method for driving a plasma display panel

Details Method for driving a plasma display panel Method for driving a plasma display panel

2000-01-14

2003-11-11

Lao, Lun-Yi (Department: 2673)

Computer graphics processing and selective visual display system

Plural physical display element control system

Display elements arranged in matrix

C345S067000, C345S060000, C315S169400

Reexamination Certificate

active

06646625

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method for driving a plasma display panel (hereinafter designated “PDP”) which employs a matrix display scheme.
2. Description of Related Art
As a type of PDP employing such a matrix display scheme, known is an AC (alternating current discharge) type PDP.
The AC type PDP comprises a plurality of column electrodes (address electrodes) and a plurality of row electrodes that are orthogonal to the column electrodes, and a pair of row electrodes form a scan line. Each of these row and column electrodes is coated with a dielectric layer exposed to a discharge space, and the intersection of a row electrode and a column electrode defines a discharge cell corresponding to one pixel.
With this construction, PDP operates by discharge phenomenon and thus the aforementioned discharge cell has only two states, that is, a “light-emitting” state and a “non-light-emitting” state. Accordingly, in order to implement a brightness display of a halftone with such PDP, a sub-field method is employed. According to the sub-field method, the display period of one field is divided into N sub-fields. Then, each of the sub-fields is assigned with a light emitting period (the number of light emissions) having a length of time corresponding to the weight assigned to each bit digit of pixel data (N bits) for light-emission.
For example, as shown in
FIG. 1
, in the case where one field period is divided into 6 sub-fields, SF
1
to SF
6
, light is emitted by the following ratio of light emission periods. That is,
SF
1
:
1
SF
2
:
2
SF
3
:
4
SF
4
:
8
SF
5
:
16
SF
6
:
32
As shown in
FIG. 1
, when the discharge cell is to emit light at brightness “32” only SF
6
of sub-fields SF
1
to SF
6
is allowed for emitting light. On the other hand, for light emission at brightness “31”, sub-fields SF
1
to SF
5
, except for sub-field SF
6
, are caused to emit light. This enables an expression of brightness with 64 levels of halftone.
As is evident from the sequence in
FIG. 1
, the number of sub-fields may be increased to increase the number of levels of halftone.
However, a pixel data writing step is required for selecting light-emitting cells within one sub-field. Thus, an increase in the number of sub-fields would lead to an increase in the number of repetitions of the pixel data writing step that should be performed in one field. This causes the time assigned to the light-emission period (the length of time of the light-emission sustaining step) in one field period to become relatively short, thereby causing a decrease in brightness.
Therefore, it is necessary to perform multi-level gray scale processing in a specified manner for a video signal itself in order to implement a video display such as a television video image display by means of PDP. For example, as a scheme for multi-level gray scale processing, error diffusion processing is well known. The error diffusion processing is a method that adds an error between the pixel data corresponding to a pixel (a discharge cell) and a predetermined threshold value to the pixel data corresponding to a peripheral pixel in order to increase the number of levels of halftone in an apparent manner.
However, the fewer the number of levels of halftone, the greater the patterns of error diffusion become conspicuous, thereby presenting a problem in reducing the S/N ratio.
OBJECT AND SUMMARY OF THE INVENTION
The present invention has been developed to solve the aforementioned problem. An object of the present invention is to provide a method for driving a plasma display panel that can provide an improved display quality and an improved gray scale expression.
The method for driving a plasma display panel, according to the present invention, is a method wherein discharge cells are formed corresponding to pixels at respective intersections between a plurality of row electrodes disposed in an array for respective scan lines and a plurality of column electrodes disposed in an array crossing said row electrodes. The method comprises the steps of executing, in each of N (N being a natural number) sub-fields constituting a display period of one field, a pixel data writing step for setting said discharge cells to either one of non-light-emitting cells or light-emitting cells in response to pixel data, and a light-emission sustaining step for allowing only said light-emitting cells to emit light only during a light-emission period corresponding to each of weights assigned to said sub-fields respectively, wherein the light-emission period in the light-emission sustaining step of each of the sub-fields is changed field by field or frame by frame.
The method for driving a plasma display panel, according to another aspect of the present invention, is a method wherein discharge cells are formed corresponding to pixels at respective intersections between a plurality of row electrodes disposed in an array for respective scan lines and a plurality of column electrodes disposed in an array crossing said row electrodes. The method has a light-emission drive sequence of executing a pixel data writing step for setting, in each of N (N bing a natural number) divided display periods constituting a unit display period, the respective discharge cells to either one of non-light-emitting cells or light-emitting cells in response to N-bit display drive pixel data obtained by applying the multi-level gray-scale processing to input video signal in the respective divided display periods, and executing a light-emission sustaining step for allowing only said light-emitting cells to emit light only by the number of times corresponding to weights assigned to said respective divided display periods. The light-emission drive sequence comprises a first drive pattern carried out by alternating, at intervals of the unit display period, first and second light-emission drive sequences which have the ratios of the number of times of light-emissions different from each other in the light-emission sustaining step of each of the N divided display periods, and a second drive pattern carried out by alternating, at intervals of the unit display period, third and fourth light-emission drive sequences which have said ratios of the number of times of light-emissions different from each other in the light-emission sustaining step of each of the N divided display periods. The first drive pattern and the second drive pattern are selectively executed in accordance with the type of said input video signal.


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